Are the energy and virial routes to thermodynamics equivalent for hard spheres ?
نویسندگان
چکیده
The internal energy of hard spheres (HS) is the same as that of an ideal gas, so that the energy route to thermodynamics becomes useless. This problem can be avoided by taking an interaction potential that reduces to the HS one in certain limits. In this paper the square-shoulder (SS) potential characterized by a hard-core diameter σ′, a soft-core diameter σ > σ′ and a shoulder height ǫ is considered. The energy-route equation of state for the HS fluid is obtained in terms of the radial distribution function for the SS fluid by taking the limits ǫ → 0 and ǫ → ∞. This equation of state is shown to exhibit, in general, an artificial dependence on the diameter ratio σ/σ. If furthermore the limit σ′/σ → 1 is taken, the resulting equation of state for HS coincides with that obtained through the virial route.
منابع مشابه
On the equivalence between the energy and virial routes to the equation of state of hard-sphere fluids.
The energy route to the equation of state of hard-sphere fluids is ill defined since the internal energy is just that of an ideal gas, and thus it is independent of density. It is shown that this ambiguity can be avoided by considering a square-shoulder interaction and taking the limit of vanishing shoulder width. The resulting hard-sphere equation of state coincides exactly with the one obtain...
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